RU2246663C2 - Method of radiant heating of rooms - Google Patents

Abstract

FIELD: radiant (infra-red) heating in decentralized heating systems.

SUBSTANCE: proposed method includes heating with infra-red radiant flux from tubular radiators blown with hot heat-transfer agent. System consists of separate modules; first module (in way of flow) is equipped with working burner whose thermal power is sufficient for heating the surface of beginning of tubular radiator to temperature of 500-550 C; each subsequent module, but for the last one is equipped with compensating burner whose thermal power is sufficient for restoration of temperature of surface at the beginning of compensating module to 500-550 C. Thermal power of each subsequent compensating module is lesser than that of previous one by 5-15%. Diameter of each subsequent compensating module exceeds diameter of previous one; compensating modules have similar thermal power. Last compensating module is not equipped with burner; temperature of exhaust flue gases is reduced to temperature exceeding the temperature of beginning of water steam condensation. Modules are interconnected by tight joints.

EFFECT: enhanced efficiency; maximum utilization factor.

5 cl, 1 dwg

Description

The invention relates to techniques for radiant (infrared) space heating in a decentralized heating system.

Autonomous infrared “dark” emitters are known that provide decentralized heating of rooms. As a rule, such heating systems are based on tube emitters of limited length with a surface temperature of up to 550-600 ° C. A feature of these systems is the acquisition of their individual autonomous emitters with their inherent disadvantages [1].

Also known is a “dark” emitter of long length and unit thermal power, the organic disadvantage of which is uneven heating of the radiating surface, and the temperature along the length of the V-shaped heater decreases from 600 ° C in the burner zone to 200 ° C in the area of the smoke outlet [2], [3].

Closest to the claimed invention in technical essence and the achieved result is a method of radiant space heating with an infrared radiant flux from tubular emitters blown by a hot coolant [4].

Comparative analysis shows that the prototype has a number of disadvantages that significantly reduce the effectiveness of decentralized heating of rooms, namely:

- the temperature of the radiating surface decreases from 550-600 to 180-200 ° C, which significantly reduces the radiation efficiency of the system;

- the total length of the system of tubular emitters is limited by the permissible minimum temperature of the coolant (not lower than 180 ° C), which does not allow heating the premises of a large surface.

Both of these drawbacks reduce the radiation efficiency of the radiant heating system and limit its total length.

The objective of the invention is to create a method of heating a system of tubular emitters of any length (regardless of the size of the heated room) with the maximum possible coefficient of use of the radiation component in the heat flux from the emitters.

The problem is solved as follows. In the method of radiant heating of premises, which consists in heating them with infrared radiant flux from tubular emitters blown by a hot coolant, the system is assembled from separate modules, while the first module along the way is equipped with a working burner with thermal power sufficient to heat the surface of the beginning of the tubular emitter to a temperature of 500 -550 ° C, and each subsequent module, except the last, is equipped with a compensation burner with a heat capacity sufficient to restore the surface temperature at the beginning of the comp nsatsionnogo module to 500-550 ° C.

The thermal power of each subsequent compensation module is set 5-15% less than the thermal power of the previous compensation module.

The diameter of each subsequent module is selected, respectively, higher than the diameter of the previous compensation module at the same thermal power of the compensation modules.

The last compensation module is not equipped with a compensation burner and reduce the temperature of the flue gas to a temperature higher than the beginning of the condensation of water vapor. The modules are interconnected tight.

The signs that distinguish the proposed method from the solutions in the prototype are significant, and the proposed sensitive solutions meet the criterion of "novelty."

The drawing shows a constructive solution of a modular radiant heating system for premises according to the proposed method of heating it.

The radiant heating system of the premises includes one working module 1 with a burner 2 and the accumulated number (depending on the geometric dimensions of the heated room) of compensation modules 3 with burners 4.

The method of radiant space heating is implemented as follows.

With a single diameter of 120 mm in the first working module 1, burner 2 burns up to 5 m ³ / h of natural gas, while the temperature on the surface of the burner zone is set to 550 ° C. With a module length of up to 6-8 m, the latter decreases to 350-400 ° C. The subsequent compensation module 3 using the burner 4 restores the temperature level of the coolant to the surface temperature at the beginning of the module 550 ° C, etc.

Due to the increase in the speed and mass of the coolant (increase in the number of compensation modules), the thermal power of subsequent compensation burners 4 is reduced by 5-15%. This allows you to maintain the same convective heat flux to the radiating surface of the module and to establish a single temperature distribution along its length from 500-550 to 350-400 ° C.

The increase in convective heat flow with an increase in the number of compensation modules can also be solved by a corresponding increase in the diameter of each subsequent compensation module.

The last module is not equipped with a compensation burner.

The connection of the modules in the radiant heating system is leakproof.

The proposed method of radiant heating allows you to heat the premises of any geometry with a maximum degree of use of the emissivity of the module.

The surface temperature of the tube emitters can be maintained depending on the specific requirements from 250 to 550 ° C.

Given the versatility of the proposed method of a radiant heating system, its large-scale production is planned at the Kamensk plant of gas-using equipment. The implementation of the heating system allows saving up to 50% of fuel.

Sources of information:

1. A.S. USSR No. 1657870, class F 23 D 14 / 00,1991.

2. Nevidimov I.A. Infrared gas heater. Appendix to the journal "Expert", 1999, July, p.31-34.

3. Shaginyan I.E. “Radiant space heating systems." The gas industry, 1999, No. 6, p.31-32.

4. USSR No. 467119, IPC F 23 D 14/12, 1975.

Claims (5)

1. The method of radiant heating of the premises, which consists in heating them with an infrared radiant flux from tubular emitters blown by a hot coolant, characterized in that the system is assembled from separate modules, while the first module along the way is equipped with a working burner with thermal power sufficient to heat the surface of the beginning of the tubular emitter to a temperature of 500-550 ° C, and each subsequent module, except the last, is equipped with a compensation burner with a heat capacity sufficient to restore the temperature Property in the beginning of the compensation module to 500-550 ° C. 2. The method of radiant heating of premises according to claim 1, characterized in that the thermal power of each subsequent compensation module is set to 5-15% less than the thermal power of the previous compensation module. 3. The method of radiant heating of premises according to claim 1, characterized in that the diameter of each subsequent compensation module is selected respectively higher than the diameter of the previous compensation module, while the thermal power of the compensation modules is set to the same. 4. The method of radiant heating of premises according to one of claims 1 to 3, characterized in that the last compensation module is not equipped with a compensation burner and reduce the temperature of the exhaust flue gases to a temperature exceeding the beginning of condensation of water vapor. 5. The method of radiant heating of premises according to one of claims 1 to 4, characterized in that the connection of the modules to each other is performed tight.